Visualization of electrophysiological activity at the carpal tunnel area using magnetoneurography.

• Neural activity in the carpal tunnel area can be visualized by magnetoneurography. • Conductions due to stimulation of the index and middle digital nerves can be differentiated. • Intra-axonal currents and currents flowing across the membrane can be visualized. To establish a noninvasive method to measure the neuromagnetic fields of the median nerve at the carpal tunnel after electrical digital nerve stimulation and evaluate peripheral nerve function. Using a vector-type biomagnetometer system with a superconducting quantum interference device, neuromagnetic fields at the carpal tunnel were recorded after electrical stimulation of the index or middle digital nerve in five healthy volunteers. A novel technique for removing stimulus-induced artifacts was applied, and current distributions were calculated using a spatial filter algorithm and superimposed on X-ray. A neuromagnetic field propagating from the palm to the carpal tunnel was observed in all participants. Current distributions estimated from the magnetic fields had five components: leading and trailing components parallel to the conduction pathway, outward current preceding the leading component, inward currents between the leading and trailing components, and outward current following the trailing component. The conduction velocity and peak latency of the inward current agreed well with those of sensory nerve action potentials. Removing stimulus-induced artifacts enabled magnetoneurography to noninvasively visualize with high spatial resolution the electrophysiological neural activity from the palm to the carpal tunnel. This is the first report of using magnetoneurography to visualize electrophysiological nerve activity at the palm and carpal tunnel. [ABSTRACT FROM AUTHOR]